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公开(公告)号:US07174268B2
公开(公告)日:2007-02-06
申请号:US11206157
申请日:2005-08-18
IPC分类号: G06F15/00
CPC分类号: H04Q9/00
摘要: A wireless measuring device 1 is provided which includes a plurality of child units 2 and a parent unit 3 to receive data measured by these child units 2 by wireless communication. Each of the child units 2 has a controlling section 20 that can move to a standby state, a measuring section 21, a signal receiving section 22 to receive a measurement instructing signal from the parent unit 3, and a signal transmitting section 23 to transmit the measured data by wireless communication. The parent unit 3 has a signal transmitting section to transmit the measurement instructing signal to each of the child units 2 and a measured data receiving section 32 to receive measured data to be transmitted from the signal transmitting section 23.
摘要翻译: 提供一种无线测量装置1,其包括多个子单元2和母单元3,以通过无线通信来接收由这些子单元2测量的数据。 每个子单元2具有可以移动到待机状态的控制部分20,测量部分21,用于接收来自母单元3的测量指令信号的信号接收部分22以及信号发送部分23, 通过无线通信测量数据。 母单元3具有信号发送部分,用于将测量指示信号发送到每个子单元2和测量数据接收部分32,以接收从信号发送部分23发送的测量数据。
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公开(公告)号:US20060052987A1
公开(公告)日:2006-03-09
申请号:US11206157
申请日:2005-08-18
CPC分类号: H04Q9/00
摘要: A wireless measuring device 1 is provided which includes a plurality of child units 2 and a parent unit 3 to receive data measured by these child units 2 by wireless communication. Each of the child units 2 has a controlling section 20 that can move to a standby state, a measuring section 21, a signal receiving section 22 to receive a measurement instructing signal from the parent unit 3, and a signal transmitting section 23 to transmit the measured data by wireless communication. The parent unit 3 has a signal transmitting section to transmit the measurement instructing signal to each of the child units 2 and a measured data receiving section 32 to receive measured data to be transmitted from the signal transmitting section 23.
摘要翻译: 提供一种无线测量装置1,其包括多个子单元2和母单元3,以通过无线通信来接收由这些子单元2测量的数据。 每个子单元2具有可以移动到待机状态的控制部分20,测量部分21,用于接收来自母单元3的测量指令信号的信号接收部分22以及信号发送部分23, 通过无线通信测量数据。 母单元3具有信号发送部分,用于将测量指示信号发送到每个子单元2和测量数据接收部分32,以接收从信号发送部分23发送的测量数据。
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公开(公告)号:US07193707B2
公开(公告)日:2007-03-20
申请号:US11048211
申请日:2005-02-01
CPC分类号: G01J3/36 , G01J3/0208 , G01J3/0294 , G01J3/18
摘要: The present invention provides a small sized wide wave-range spectroscope with a simple structure which requires a short time to measure light for measurement over a wide wavelength spectrum. The small sized wide wave-range spectroscope has a collimator (43) for changing light for measurement (L) transmitted through a slit (41) into collimated light (L0), a plurality of diffraction gratings (44a, 44b) with different grating constants d supported rotatably around a rotational axis in parallel with the incident slit (41) and disposed side by side in the direction of the rotational axis in the optical path of the collimated light (L0), and a diffracted-light focusing members (45a, 45b) for focusing a plurality of diffracted light rays (L1 to L4) provided by the plurality of diffraction gratings (44a, 44b) by which the collimated light (L0) is diffracted, each of the diffracted-light focusing members (45a, 45b) being provided in association with each of the plurality of diffraction gratings (44a, 44b).
摘要翻译: 本发明提供了一种具有简单结构的小尺寸宽波段分光镜,其需要很短时间来测量用于宽波长光谱测量的光。 小尺寸宽波段分光镜具有用于将通过狭缝(41)透射的测量用光(L)变换成准直光(L 0)的准直仪(43),多个衍射光栅(44a,44b),具有 不同的光栅常数d可以与入射狭缝(41)平行地围绕旋转轴线可旋转地支撑并且在准直光(L 0)的光路中沿旋转轴线的方向并排布置,并且衍射光聚焦 用于聚焦由衍射光(L 0)衍射的多个衍射光栅(44a,44b)提供的多个衍射光(L 1至L 4)的各个部件(45a,45b) 的衍射光聚焦构件(45a,45b)与多个衍射光栅(44a,44b)中的每一个相关联地设置。
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公开(公告)号:US20060067376A1
公开(公告)日:2006-03-30
申请号:US11237941
申请日:2005-09-29
IPC分类号: G01N25/00
CPC分类号: G01J5/0003 , G01J5/522
摘要: The emissivity measuring device 10 of the present invention includes an integrating sphere 18 having an energy entering hole 12 through which radiation energy is made to enter from an infrared ray source 11, a sample hole 14 placed being opposite to an entering direction of radiation energy supplied from the energy entering hole 12 and open edge portions of which are put into contact, in a struck manner, with an object 13 to be tested, and a detecting hole 16 to which a detector 15 to detect radiation energy is attached, wherein the detector 15 detects radiation energy emitted from the object 13 to be tested being multiple-scattered by the integrating sphere 17 via the detecting hole 16 and the detected radiation energy is compared with a measured value of emissivity of a known sample in a calculation controlling means 18 to calculate emissivity of the object 13 to be tested. The temperature sensor is attached to aperture edge portions of the sample hole 14.
摘要翻译: 本发明的发射率测量装置10包括具有能量进入孔12的积分球18,通过该能量进入孔12使辐射能量从红外线源11进入,与供给的辐射能量的进入方向相反放置的样本孔14 从能量进入孔12和其开口边缘部分以被击打的方式与要测试的物体13接触,并且附接有检测器15以检测辐射能的检测孔16,其中检测器 15通过检测孔16检测由积分球17多次散射的待测物体13发射的辐射能量,将检测出的放射能与计算控制装置18中的已知样品的发射率的测定值进行比较, 计算要测试对象13的发射率。 温度传感器附接到样品孔14的孔边缘部分。
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公开(公告)号:US20050168738A1
公开(公告)日:2005-08-04
申请号:US11048211
申请日:2005-02-01
CPC分类号: G01J3/36 , G01J3/0208 , G01J3/0294 , G01J3/18
摘要: The present invention provides a small sized wide wave-range spectroscope with a simple structure which requires a short time to measure light for measurement over a wide wavelength spectrum. The small sized wide wave-range spectroscope has a collimator (43) for changing light for measurement (L) transmitted through a slit (41) into collimated light (L0), a plurality of diffraction gratings (44a, 44b) with different grating constants d supported rotatably around a rotational axis in parallel with the incident slit (41) and disposed side by side in the direction of the rotational axis in the optical path of the collimated light (L0), and a diffracted-light focusing members (45a, 45b) for focusing a plurality of diffracted light rays (L1 to L4) provided by the plurality of diffraction gratings (44a, 44b) by which the collimated light (L0) is diffracted, each of the diffracted-light focusing members (45a, 45b) being provided in association with each of the plurality of diffraction gratings (44a, 44b).
摘要翻译: 本发明提供了一种具有简单结构的小尺寸宽波段分光镜,其需要很短时间来测量用于宽波长光谱测量的光。 小尺寸宽波段分光镜具有用于将通过狭缝(41)透射的测量用光(L)变换成准直光(L 0)的准直仪(43),多个衍射光栅(44a,44b),具有 不同的光栅常数d可以与入射狭缝(41)平行地围绕旋转轴线可旋转地支撑并且在准直光(L 0)的光路中沿旋转轴线的方向并排布置,并且衍射光聚焦 用于聚焦由衍射光(L 0)衍射的多个衍射光栅(44a,44b)提供的多个衍射光(L 1至L 4)的各个部件(45a,45b) 的衍射光聚焦构件(45a,45b)与多个衍射光栅(44a,44b)中的每一个相关联地设置。
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6.发明申请METHOD FOR DESIGNING SUNLIGHT-REFLECTION AND HEAT-RADIATION MULTILAYER FILM, AND SUNLIGHT-REFLECTION AND HEAT-RADIATION MULTILAYER FILM 失效设计太阳光反射和热辐射多层膜的方法,以及阳光反射和热辐射多层膜公开(公告)号:US20120034476A1
公开(公告)日:2012-02-09
申请号:US13264673
申请日:2010-04-19
申请人: Akira Ohnishi , Sumitaka Tachikawa
发明人: Akira Ohnishi , Sumitaka Tachikawa
CPC分类号: B64G1/58 , B64G1/226 , B64G1/50 , G02B5/282 , Y10T428/31681 , Y10T428/31721
摘要: A design method for a thermal control film advantageously used in cosmic space, especially for a multilayer film, includes: setting at least two candidate materials for forming the multilayer film and the number of layers of the multilayer film; and designing a combination of the candidate material and a layer thickness by using a genetic algorithm stored in a computer-readable medium using an evaluation function, and recording the obtained results on a computer-readable medium. The evaluation function includes: αs=1−Rs, wherein Rs represents a reflectance of solar energy in a wavelength range used for design, within a solar radiation wavelength range; and ∈H: ∈H=1−RIR, wherein RIR represents a reflectance of heat radiation energy in a wavelength range used for design, within a heat radiation wavelength range.
摘要翻译: 用于宇宙空间,特别是多层膜的热控制膜的设计方法包括:设置用于形成多层膜的至少两种候选材料和多层膜的层数; 以及通过使用存储在使用评估功能的计算机可读介质中的遗传算法来设计候选材料和层厚度的组合,并将获得的结果记录在计算机可读介质上。 评价函数包括:αs= 1-Rs,其中Rs表示在太阳辐射波长范围内用于设计的波长范围内的太阳能的反射率; 和∈H:∈H= 1-RIR,其中RIR表示在热辐射波长范围内用于设计的波长范围内的热辐射能量的反射率。
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7.发明授权公开(公告)号:US08712736B2
公开(公告)日:2014-04-29
申请号:US13264673
申请日:2010-04-19
申请人: Akira Ohnishi , Sumitaka Tachikawa
发明人: Akira Ohnishi , Sumitaka Tachikawa
IPC分类号: G06F17/50
CPC分类号: B64G1/58 , B64G1/226 , B64G1/50 , G02B5/282 , Y10T428/31681 , Y10T428/31721
摘要: A design method for a thermal control film advantageously used in cosmic space, especially for a multilayer film, includes: setting at least two candidate materials for forming the multilayer film and the number of layers of the multilayer film; and designing a combination of the candidate material and a layer thickness by using a genetic algorithm stored in a computer-readable medium using an evaluation function, and recording the obtained results on a computer-readable medium. The evaluation function includes: αs=1−Rs, wherein Rs represents a reflectance of solar energy in a wavelength range used for design, within a solar radiation wavelength range; and ∈H: ∈H=1−RIR, wherein RIR represents a reflectance of heat radiation energy in a wavelength range used for design, within a heat radiation wavelength range.
摘要翻译: 用于宇宙空间,特别是多层膜的热控制膜的设计方法包括:设置用于形成多层膜的至少两种候选材料和多层膜的层数; 以及通过使用存储在使用评估功能的计算机可读介质中的遗传算法来设计候选材料和层厚度的组合,并将获得的结果记录在计算机可读介质上。 评价函数包括:αs= 1-Rs,其中Rs表示在太阳辐射波长范围内用于设计的波长范围内的太阳能的反射率; 和∈H:∈H= 1-RIR,其中RIR表示在热辐射波长范围内用于设计的波长范围内的热辐射能量的反射率。
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8.发明授权Method of temperature measurement and temperature-measuring device using the same 失效温度测量方法及使用其的温度测量装置公开(公告)号:US07591586B2
公开(公告)日:2009-09-22
申请号:US11836693
申请日:2007-08-09
申请人: Akira Ohnishi
发明人: Akira Ohnishi
IPC分类号: G01J5/00
CPC分类号: G01J5/0003
摘要: A method of precisely measuring temperature of an object without having to setting the emissivity of the object over a wide temperature range from low to high temperature with a single radiation thermometer. The temperature-measuring device of the present invention includes a reference object having an emissivity of substantially 1 in a prescribed wavelength range; a bandpass filter transmitting radiant energy in the prescribed wavelength range; and a radiation thermometer for observing temperature by taking in the radiant energy transmitted through the bandpass filter. The device has a structure for measuring temperature of an object by bringing the reference object into contact with the object, observing temperature radiated from the reference object after the temperature of the reference object has become substantially in the thermal equilibrium with the object and transmitted through the bandpass filter using the radiation thermometer, and determining the object temperature based on the observed temperature.
摘要翻译: 一种精确测量物体温度的方法,而不必用单个辐射温度计在低温到高温的宽温度范围内设定物体的发射率。 本发明的温度测量装置包括在规定波长范围内具有大致1的发射率的参考对象; 带通滤波器,在规定的波长范围内发射辐射能; 以及辐射温度计,用于通过吸收透过带通滤光器的辐射能观察温度。 该装置具有用于通过使基准对象与物体接触来测量物体的温度的结构,在参考对象的温度变得基本上与物体的热平衡之后,观察从参考物体辐射的温度,并通过 使用辐射温度计的带通滤波器,并且基于观察到的温度来确定对象温度。
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9.发明申请公开(公告)号:US20080037610A1
公开(公告)日:2008-02-14
申请号:US11836693
申请日:2007-08-09
申请人: Akira Ohnishi
发明人: Akira Ohnishi
IPC分类号: G01J5/00
CPC分类号: G01J5/0003
摘要: A method of precisely measuring temperature of an object without having to setting the emissivity of the object over a wide temperature range from low to high temperature with a single radiation thermometer. The temperature-measuring device of the present invention includes a reference object having an emissivity of substantially 1 in a prescribed wavelength range; a bandpass filter transmitting radiant energy in the prescribed wavelength range; and a radiation thermometer for observing temperature by taking in the radiant energy transmitted through the bandpass filter. The device has a structure for measuring temperature of an object by bringing the reference object into contact with the object, observing temperature radiated from the reference object after the temperature of the reference object has become substantially in the thermal equilibrium with the object and transmitted through the bandpass filter using the radiation thermometer, and determining the object temperature based on the observed temperature.
摘要翻译: 一种精确测量物体温度的方法,而不必用单个辐射温度计在低温到高温的宽温度范围内设定物体的发射率。 本发明的温度测量装置包括在规定波长范围内具有大致1的发射率的参考对象; 带通滤波器,在规定的波长范围内发射辐射能; 以及辐射温度计,用于通过吸收透过带通滤光器的辐射能观察温度。 该装置具有用于通过使基准对象与物体接触来测量物体的温度的结构,在参考对象的温度变得基本上与物体的热平衡之后,观察从参考物体辐射的温度,并通过 使用辐射温度计的带通滤波器,并且基于观察到的温度来确定对象温度。
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公开(公告)号:US5340707A
公开(公告)日:1994-08-23
申请号:US120409
申请日:1993-09-14
申请人: Akira Ohnishi , Yasushi Usagawa , Taketoshi Yamada
发明人: Akira Ohnishi , Yasushi Usagawa , Taketoshi Yamada
CPC分类号: G03C1/832
摘要: A silver halide photographic light-sensitive material containing a dye is disclosed. The dye is represented by a formula ##STR1## wherein R.sub.1 represents a hydrogen atom, an alkyl group, an aryl group or a heterocyclic group; R.sub.2 represents a hydrogen atom, an alkyl group, an aryl group, a heterocyclic group, an alkoxycarbonyl group, an aryloxycarbonyl group, a carbamoyl group, an acylamino group, an ureide group, an amino group, an acyl group, an alkoxy group, an aryloxy group, a hydroxyl group, a carboxyl group, a cyano group, a sulfamoyl group or a sulfonamide group; B represents a 5- or 6-membered oxygen-containing heterocyclic group or a 6-membered nitrogen-containing heterocyclic group; L.sub.1 through L.sub.3 independently represent a methine group; n represents 0 or 1. The compound of formula 1 has at least one carboxyl group, sulfonamide group or sulfamoyl group.
摘要翻译: 公开了含有染料的卤化银照相感光材料。 染料由式(Ⅰ)表示,其中R1表示氢原子,烷基,芳基或杂环基; R2表示氢原子,烷基,芳基,杂环基,烷氧基羰基,芳氧基羰基,氨基甲酰基,酰氨基,酰脲基,氨基,酰基,烷氧基, 芳氧基,羟基,羧基,氰基,氨磺酰基或磺酰胺基; B表示5或6元含氧杂环基或6元含氮杂环基; L1至L3独立地表示次甲基; n表示0或1.式1的化合物具有至少一个羧基,磺酰胺基或氨磺酰基。
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